JP3745132B2 - Remote control light receiving unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is a remote controller that is attached to various electric appliances such as a TV (TV), a VTR (video tape recorder), an audio component, and an air conditioner, and receives an infrared signal transmitted from a remote controller (remote transmitter). It relates to a light receiving unit.
[0002]
[Prior art]
Various electric appliances such as a TV (TV), a VTR (Video Tape Recorder), an audio component, and an air conditioner are controlled by an infrared signal transmitted by a remote control transmitter. FIG. 6 is a schematic configuration diagram showing the internal structure of a television that can be controlled by a remote controller. An infrared signal transmitted from the remote control transmitter passes through a light receiving window 32 provided on the front panel 31 of the television 30, and is a cylindrical light provided in a horizontal state between the light receiving window 32 and the remote control light receiving unit 33. The remote control light receiving unit 33 is irradiated through the guide 34.
[0003]
In the remote control light receiving unit 33, a photodiode as a light receiving element is mounted on a lead frame attached to the substrate 35, and is molded by a resin mold portion 33a. The surface of the resin mold portion 33a facing the photodiode is a lens portion 33b protruding in a hemispherical shape, and the lens portion 33b faces the end surface of the light guide 34.
[0004]
The infrared signal that has passed through the light guide 34 is applied to the lens portion 33b of the resin mold portion 33a, and is received by the photodiode in the resin mold portion 33a.
[0005]
[Problems to be solved by the invention]
In the television 30 having such a configuration, the remote control light receiving unit 33 is attached in a state where one end face of the light guide 34 is abutted against the light receiving window 32 of the front panel 31 and the light guide 34 is horizontally disposed. The substrate 35 is mounted at a predetermined position inside the television 30. In this case, when mounting the substrate 35 at a predetermined position in the television 30, it is necessary to position the lens portion 33b of the remote control light receiving unit 33 and the light guide 34 so as to be concentric. However, since an appropriate interval is provided between the light guide 34 and the remote control light receiving unit 33, it is not easy to position and fix the lens portion 33b of the remote control light receiving unit 33 and the light guide 34. There's a problem.
[0006]
When the light guide 34 and the lens portion 33b of the remote control light receiving unit 33 are not arranged concentrically, the amount of light received by the photodiode is significantly reduced by the directivity of the infrared signal that enters the light guide 34 from the light receiving window 32. There is a fear.
[0007]
The present invention solves such a problem, and an object of the present invention is to be easily placed at a predetermined position inside an appliance or the like, and to reduce the amount of received infrared signal. The object is to provide a remote control light-receiving unit without fear.
[0008]
[Means for Solving the Problems]
The remote control light-receiving unit of the present invention includes a resin mold part that molds a light receiving element mounted on a lead frame, a shield case that integrally covers the resin mold part, and a hemisphere on the resin mold part that faces the light receiving element. A light receiving body portion having a lens portion protruding in a shape, and a cylindrical lens cap portion which is provided integrally with a cover portion fitted to the shield case and covers the lens portion via an air layer. A cylindrical light guide main body provided on the lens cap portion and having a diameter larger than that of the lens portion and having a front end face abutted on a light receiving window to which a signal from a remote control transmitter is irradiated. A light guide unit that is integrally formed of a conductive plastic in a concentric state, and the lens unit and the lens cap unit are concentric. The features.
[0010]
In the remote control light receiving unit of the present invention, the light guide main body portion of the light guide portion is hollow.
In addition, the remote control light receiving unit of the present invention includes a resin mold part that molds a light receiving element mounted on a lead frame, a shield case that integrally covers the resin mold part, and the resin mold part that faces the light receiving element. A light receiving body portion having a lens portion protruding in a hemispherical shape, and a cylindrical lens cap portion that is integrally attached to the light receiving body portion and covers the lens portion through an air layer; A cylindrical light guide main body having a diameter larger than that of the lens portion and having a front end faced against a light receiving window to which a signal from a remote control transmitter is irradiated is integrated with a translucent plastic in a concentric state. A light guide portion formed in a single piece, and the resin mold portion and the light guide portion of the light receiving body portion are integrally formed to form the lens portion and the lens guide. 'S cap is characterized in that a concentric state.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0012]
FIG. 1 is a schematic configuration diagram of a television equipped with a remote control light receiving unit of the present invention. In the television 20, the cathode ray tube 22 is accommodated in the television case 21, and the display screen of the cathode ray tube 22 faces the front surface of the television case 21. The remote control receiving unit 10 of the present invention is disposed below the cathode ray tube 22 in the television case 21.
[0013]
2 is a side view of the remote control light receiving unit 10, and FIG. 3 is a front view thereof. The remote control light receiving unit 10 includes a light receiving main body 11 attached to a substrate 23 (see FIG. 1), a shield case 12 covering the light receiving main body 11, and the shield case 12 and the front panel 21a of the TV case 21. It has the light guide part 13 arrange | positioned in the horizontal state in between. The light guide portion 13 is integrally attached to the shield case 12, and one end face of the light guide portion 13 is abutted against a light receiving window portion 21 b provided on the front panel 21 a of the case 21.
[0014]
The light receiving main body 11 of the remote control light receiving unit 10 is provided with a photodiode 11b which is a light receiving element mounted on a lead frame 11a attached to the substrate 23. Further, an integrated circuit portion including an amplifier circuit and the like are mounted on the lead frame 11a, and the photodiode 11b, the integrated circuit portion and the like are molded by a resin mold portion 11c. The resin mold portion 11c is provided with a lens portion 11d having a hemispherical protruding surface portion facing the photodiode 11b. A part of the lead frame 11a protrudes from the resin mold part 11c.
[0015]
The resin mold part 11c of the light receiving body part 11 is covered with a metal shield case 12 integrated with the resin mold part 11c. A part of the lead frame 11 a protruding from the resin mold portion 11 c in the light receiving body portion 11 is inserted through the side surface of the shield case 12 and protrudes from the shield case 12. A circular opening from which the lens portion 11d protrudes is provided on the surface of the shield case 12 that covers the surface of the resin mold portion 11c on which the lens portion 11d is provided. In addition, a pair of recesses 12c are provided on the outer surface of each side surface 12b extending along the longitudinal direction in the shield case 12 with an appropriate interval in the longitudinal direction.
[0016]
A light guide portion 13 is integrally attached to the shield case 12. The light guide portion 13 includes a cover portion 13a that covers a surface of the shield case 12 provided with an opening from which the lens portion 11a protrudes, and a cylindrical lens cap portion that covers the lens portion 11d that protrudes from the opening portion of the shield case 12. 13b and the lens cap portion 13b have a cylindrical light guide main body portion 13c that is concentric and extends linearly in a direction away from the cover portion 13a. The cover portion 13a, the lens cap portion 13b, and the light guide main body portion 13c are integrally formed of a light transmitting plastic such as an acrylic resin.
[0017]
The cover portion 13a of the light guide portion 13 is formed in a hollow box shape that is fitted to the side portion near the surface from which the lens portion 11d of the shield case 12 protrudes, and the lens portion 11d of the shield case 12 protrudes. An opening that is fitted to the lens portion 11d is formed on the surface that is abutted against the surface. A pair of inner surfaces of the side surfaces 13d of the cover portion 13a along the side surfaces 12b extending in the longitudinal direction of the shield case 12 are respectively engaged with a pair of recesses 12c provided on the side surfaces 12b of the shield case 12, respectively. The engaging claws 13e are provided. The light guide portion 13 is integrally attached to the shield case 12 by the engagement claws 13e engaging with the recesses 12c of the shield case 12.
[0018]
A cylindrical lens cap portion 13b is provided at the periphery of the opening provided in the cover portion 13a so that the lens portion 11d is fitted so as to surround the lens portion 11d. The lens cap portion 13b is concentric with the lens portion 11d, and has an inner diameter slightly larger than the outer diameter of the lens portion 11d so that an appropriate space is formed around the lens portion 11d.
[0019]
An end surface of the lens cap portion 13b located on the far side of the light receiving body portion 11 is closed with an appropriate distance from the lens portion 11d fitted therein, and a transparent plastic is provided on the end surface. Thus, a light guide main body portion 13c configured in a solid cylindrical shape is provided concentrically with the lens cap portion 13b. The front end surface of the light guide main body 13 c is abutted against a light receiving window 21 b provided on the front panel 21 a of the television case 21.
[0020]
In the remote control light receiving unit 10 having such a configuration, when an infrared signal transmitted from the remote control transmitter is irradiated to the light receiving window 21b of the front panel 21 of the television 20, the infrared signal passes through the light guide main body 13c. Then, the lens part 11d of the light receiving body part 11 is irradiated. Since an air layer is provided around the lens unit 11d, the infrared signal irradiated to the lens unit 11d is refracted and reliably received by the photodiode 11b. Thereby, the television 20 is controlled.
[0021]
The light guide portion 13 in the remote control light receiving unit 10 is integrally molded by translucent plastic, in order to integrally attached to the shield case 12 covering the light receiving body 11, is covered by the shield case 12 receiving With the main body 11 attached to the substrate 23, it can be easily positioned with respect to the light receiving main body 11 covered with the shield case 12 and attached to a predetermined position in the television case 21.
[0022]
Note that the light guide main body 13c in the light guide 13 does not need to be solid as a whole, and is hollow except for an end face portion that abuts against the light receiving window 21b as shown in FIG. May be. In this case, deterioration of the infrared signal passing through the light guide main body 13c is suppressed, and the photodiode 11b of the light receiving main body 11 can reliably receive the infrared signal.
[0023]
FIG. 5 is a side view showing still another example of the embodiment of the remote control light receiving unit. In the remote control light receiving unit 10, the shield case 12 is not provided, and the resin mold portion 11 c and the light guide portion 13 of the light receiving main body portion 11 are integrally formed. The light guide portion 13 is not provided with the cover portion 13a, and the lens cap portion 13b is integrated in a state of being abutted against the surface of the resin mold portion 11c where the lens portion 11d is provided. Opening portions 13f are respectively provided on the left and right side surfaces of the lens cap portion 13b so as to face each other. A solid cylindrical light guide main body 13a is integrally provided on the end face of the lens cap 13b in a concentric state.
[0024]
In the remote control light receiving unit 10 having such a configuration, when the photodiode 11b and the like mounted on the lead frame 11a are resin-molded, the light guide portion 13 is also formed at the same time. In this case, a pair of inner molds for molding the hemispherical lens portion 11d of the resin mold portion 11c is used. The pair of inner dies are abutted against each other, thereby forming a hemispherical space corresponding to the lens portion 11d. An outer mold corresponding to the outer shape of the resin mold part 11c and the light guide part 13 is disposed around the pair of inner molds, and the space between the outer mold and the inner mold and the inner mold are arranged. Translucent plastic is injection molded in the space inside the mold. When the translucent plastic is cured to a predetermined shape, the outer mold is removed and the pair of inner molds are separated from each other, and each opening formed in the lens cap portion 13b of the light guide portion 13 is opened. Each is removed through part 13f.
[0025]
Since an air layer is provided around the lens portion 11d disposed in the lens cap portion 13b of the light guide portion 13, it passes through the light guide main body portion 13a of the light guide portion 13 and enters the lens cap portion 13b. The infrared signal that has entered the laser beam is refracted by the air layer and reliably received by the photodiode 11b molded by the resin mold portion 11c.
[0026]
【The invention's effect】
In this way, the remote control light receiving unit of the present invention is such that the resin molded part in which the light receiving element is molded and the light guide part are integrally attached, so that the light receiving element and the light guide part are positioned. In addition, it can be reliably and easily attached to a predetermined position inside an electric appliance or the like. Therefore, there is no possibility that the amount of received infrared signal to the light receiving element is reduced, and the sensitivity of the remote control light receiving unit is significantly improved.
In addition, since an air layer is provided around the lens portion disposed in the lens cap portion of the light guide portion, the infrared signal irradiated to the lens portion is refracted and reliably received by the photodiode. .
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a television equipped with a remote control light receiving unit of the present invention.
FIG. 2 is a side view of the remote control light receiving unit.
FIG. 3 is a front view of the remote control light receiving unit.
FIG. 4 is a side view showing another example of the embodiment of the remote control light receiving unit of the present invention.
FIG. 5 is a side view showing still another example of the embodiment of the remote control light receiving unit of the present invention.
FIG. 6 is a schematic configuration diagram of a television equipped with a conventional remote control light receiving unit.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Remote control light reception unit 11 Light reception main-body part 11a Lead frame 11b Photodiode 11c Resin mold 11d Lens part 12 Shield case 13 Light guide part 13a Cover part 13b Lens cap part 13c Light guide main-body part 20 Television 21 Case 21a Front panel 21b Light reception window 23 substrate

Claims (3)

A resin mold part that molds the light receiving element mounted on the lead frame, a shield case that integrally covers the resin mold part, and a lens that protrudes hemispherically from the resin mold part that faces the light receiving element A light receiving body having a portion, and
A cylindrical lens cap portion that is provided integrally with a cover portion that fits into the shield case and covers the lens portion via an air layer ;
A cylindrical light guide main body portion provided in the lens cap portion and having a diameter larger than the diameter of the lens portion and having a tip surface abutted against a light receiving window irradiated with a signal from a remote control transmitter;
A light guide portion which is integrally formed in a concentric state by the translucent plastic, provided with,
The remote control light-receiving unit, wherein the lens portion and the lens cap portion are concentric . The remote control light receiving unit according to claim 1 , wherein the light guide main body is hollow. A resin mold part that molds the light receiving element mounted on the lead frame, a shield case that integrally covers the resin mold part, and a lens that protrudes in a hemispherical shape on the resin mold part that faces the light receiving element A light receiving body portion having a portion, and
A cylindrical lens cap part that is integrally attached to the light receiving body part and covers the lens part via an air layer;
A cylindrical light guide main body portion having a diameter larger than the diameter of the lens portion and having a tip surface abutted against a light receiving window irradiated with a signal from a remote control transmitter,
A light guide part formed integrally with a translucent plastic in a concentric state,
The remote-control light-receiving unit, wherein the resin mold part and the light guide part of the light-receiving body part are integrally formed, and the lens part and the lens cap part are concentric.

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